US11799564B2ActiveUtilityPatentIndex 73
Method for initialization seed generation for PN sequences in remote interference management
Est. expiryFeb 15, 2039(~12.6 yrs left)· nominal 20-yr term from priority
H04B 1/7097H04J 13/0022H04J 11/0056H04B 15/00H04B 7/24H04W 88/08H04B 2001/6904H04B 1/69
73
PatentIndex Score
2
Cited by
18
References
20
Claims
Abstract
An approach is described for a method for a base station in a fifth generation (5G) wireless communication or a new radio (NR) system that includes the following steps. The method includes determining base initial seeds and a time parameter. The method further includes generating actual initial seeds based on the base initial seeds and the time parameter; generating a Pseudo-Noise (PN) sequence based on one of the actual initial seeds; and generating a remote interference management reference signal (RIM-RS) sequence based on the PN sequence. The method further includes transmitting the RIM-RS sequence to a remote base station.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1. A method for a base station, the method comprising:
determining base initial seeds;
determining a time parameter;
generating actual initial seeds based on the base initial seeds and the time parameter;
generating a Pseudo-Noise (PN) sequence based on one of the actual initial seeds;
generating a remote interference management reference signal (RIM-RS) sequence based on the PN sequence; and
transmitting the RIM-RS sequence to a remote base station.
2. The method of claim 1 , wherein the time parameter is based on a seed update period.
3. The method of claim 2 , wherein the time parameter is based on a ratio of a time index within a RIM-RS transmission period to the seed update period.
4. The method of claim 2 , wherein the time parameter is based on a ratio of a counter of the RIM-RS transmission period to the seed update period.
5. The method of claim 2 , wherein the seed update period is based on max([(N S / T TDD )×(T 0 /N 0 )], 1),
wherein T TDD is a Time Division Duplex (TDD) downlink/uplink (DL/UL) period,
wherein N S is a total number of RIM-RS sequences of the base station in T TDD ,
wherein T 0 is a time period, and
wherein N 0 is a maximum number of RIM-RS sequences that can be configured in T 0 .
6. The method of claim 1 , wherein the one of the actual initial seeds is based on a modulo operation of a sum of one of the base initial seeds and the time parameter.
7. The method of claim 1 , wherein the base initial seeds are shared across a network, the base station and the remote base station forming a part of the network.
8. A base station comprising:
radio front end circuitry; and
processor circuitry coupled to the radio front end circuitry, which are configured to:
determine base initial seeds;
determine a time parameter;
generate actual initial seeds based on the base initial seeds and the time parameter;
generate a Pseudo-Noise (PN) sequence based on one of the actual initial seeds;
generate a remote interference management reference signal (RIM-RS) sequence based on the PN sequence; and
transmit the RIM-RS sequence to a remote base station.
9. The base station of claim 8 , wherein the time parameter is based on a seed update period.
10. The base station of claim 9 , wherein the time parameter is based on a ratio of a time index within a RIM-RS transmission period to the seed update period.
11. The base station of claim 9 , wherein the time parameter is based on a ratio of a counter of the RIM-RS transmission period to the seed update period.
12. The base station of claim 9 , wherein the seed update period is based on max([(N S / T TDD )×(T 0 /N 0 )], 1),
wherein T TDD is a Time Division Duplex (TDD) downlink/uplink (DL/UL) period,
wherein N S is a total number of RIM-RS sequences of the base station in T TDD ,
wherein T 0 is a time period, and
wherein N 0 is a maximum number of RIM-RS sequences that can be configured in T 0 .
13. The base station of claim 8 , wherein the one of the actual initial seeds is based on a modulo operation of a sum of one of the base initial seeds and the time parameter.
14. The base station of claim 8 , wherein the base initial seeds are shared across a network, the base station and the remote base station forming a part of the network.
15. A non-transitory computer-readable media comprising instructions to cause an electronic device, upon execution of the instructions by one or more processors of the electronic device, to perform one of more elements of a method, the method comprising:
determining base initial seeds;
determining a time parameter;
generating actual initial seeds based on the base initial seeds and the time parameter;
generating a Pseudo-Noise (PN) sequence based on one of the actual initial seeds;
generating a remote interference management reference signal (RIM-RS) sequence based on the PN sequence; and
transmitting the RIM-RS sequence to a remote base station.
16. The non-transitory computer-readable media of claim 15 , wherein the time parameter is based on a seed update period.
17. The non-transitory computer-readable media of claim 16 , wherein the time parameter is based on a ratio of a time index within a RIM-RS transmission period to the seed update period.
18. The non-transitory computer-readable media of claim 16 , wherein the time parameter is based on a ratio of a counter of the RIM-RS transmission period to the seed update period.
19. The non-transitory computer-readable media of claim 16 , wherein the seed update period is based on max([(N S / T TDD )×(T 0 /N 0 )], 1),
wherein T TDD is a Time Division Duplex (TDD) downlink/uplink (DL/UL) period,
wherein N S is a total number of RIM-RS sequences of the base station in T TDD ,
wherein T 0 is a time period, and
wherein N 0 is a maximum number of RIM-RS sequences that can be configured in T 0 .
20. The non-transitory computer-readable media of claim 15 , wherein the one of the actual initial seeds is based on a modulo operation of a sum of one of the base initial seeds and the time parameter.Cited by (0)
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